SP809N [EXAR]

3 Pin Microprocessor Supervisor Circuit;


型号：	SP809N
厂家：	EXAR CORPORATION
描述：	3 Pin Microprocessor Supervisor Circuit
文件：	总8页 (文件大小：474K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SP809 / SP810

3 Pin Microprocessor Supervisor Circuit

February 2011

Rev. 2.0.0

GENERAL DESCRIPTION

APPLICATIONS

The

SP809/SP810

are

low

power

• Portable Electronic Devices

• Electrical Power Meters

• Digital Still Cameras

• µP Power Monitoring

microprocessor (μP) supervisory circuits used

to monitor power supplies in μP and digital

systems.

They provide applications with benefits of

circuit reliability and low cost by eliminating

external components. If the VCC supply

voltage falls below preset threshold then a

reset signal is asserted for at least 140ms

after V_CChas risen above the reset threshold.

FEATURES

• Ultra Low Supply Current 1µA (typ)

• Guaranteed Reset valid to V_CC= 0.9V

• 140ms Power-On Reset Pulse Width

Both the SP809 and SP810 were designed with

a reset comparator to help identify invalid

signals, which last less than 140ms. The only

difference between them is that they have an

active-low RESET output and active-high

RESET output, respectively. Low supply

current (1μA) makes SP809/SP810 ideal for

portable equipment.

• Internally Fixed Threshold

2.3V, 2.6V, 2.9V, 3.1V, 4.4V, 4.6V

• 1.5% Voltage Threshold Tolerance

• 3 Pin SOT-23 Package

The devices are available in 3 pin SOT-23

package.

Part Number

Output Type

Open Drain Active Low

Push-Pull Low

Push-Pull Active High

SP809N

SP809

SP810

TYPICAL APPLICATION DIAGRAM

Fig. 1: SP809 / SP810 Application Diagram

Exar Corporation

www.exar.com

48720 Kato Road, Fremont CA 94538, USA

Tel. +1 510 668-7000 – Fax. +1 510 668-7001

SP809 / SP810

3 Pin Microprocessor Supervisor Circuit

ABSOLUTE MAXIMUM RATINGS

OPERATING RATINGS

These are stress ratings only and functional operation of

the device at these ratings or any other above those

indicated in the operation sections of the specifications

below is not implied. Exposure to absolute maximum

rating conditions for extended periods of time may affect

reliability.

Input Voltage Range V_CC................................ 0.9V to 6V

Junction Temperature Range..................... -40°C to 85°C

V_CC..........................................................-0.3V to 6.5V

RESET, RESET.................................... -0.3V to V_CC+0.3V

Output Current (RESET, RESET).............................20mA

Power Dissipation (T_A=70°C) ..............................320mW

Junction Temperature ..........................................125°C

Storage Temperature.............................. -65°C to 150°C

ELECTRICAL SPECIFICATIONS

Specifications with standard type are for an Operating Temperature of T_A= 25°C only; limits applying over the full

Operating Temperature range are denoted by a “•”. Minimum and Maximum limits are guaranteed through test, design, or

statistical correlation. Typical values represent the most likely parametric norm at T_A= 25°C, and are provided for reference

purposes only. Unless otherwise indicated, T_A= 25°C.

Parameter

Min.

Typ.

Max.

Units

Conditions

Operating Voltage Range V_CC

Supply Current I_CC

6.0

0.9

1.0

2.3

3.0

µA

V_CC=V_TH+0.1V

T_A=+25°C

2.335

2.346

2.639

2.652

2.944

2.958

3.147

3.162

4.466

4.488

4.669

4.692

2.265

2.254

2.561

2.548

2.857

2.842

3.054

3.038

4.334

4.312

4.531

4.508

•

T_A=-40°C to 85°C

T_A=+25°C

2.6

2.9

3.1

4.4

4.6

T_A=-40°C to 85°C

T_A=+25°C

T_A=-40°C to 85°C

T_A=+25°C

Reset Threshold V_TH

T_A=-40°C to 85°C

T_A=+25°C

T_A=-40°C to 85°C

T_A=+25°C

T_A=-40°C to 85°C

V_CC=V_THto (V_TH+ 0.1V), V_TH=3.1V

T_A=+25°C

V_CCReset Delay V_TRIP

µs

230

560

140

100

Reset Active Timeout Period T_RP

•

1030

T_A=-40°C to 85°C

V_CC=V_TH- 0.1V, I_SOURCE= 1.2mA

V_CC=V_TH+ 0.1V, I_SINK= 1.2mA

V_CC=V_TH+ 0.1V, I_SOURCE= 1.2mA

V_CC=V_TH- 0.1V, I_SINK= 1.2mA

RESET Output Voltage V_OH

RESET Output Voltage V_OL

RESET Output Voltage V_OH

RESET Output Voltage V_OL

0.8V_CC

0.3

0.8V_CC

Note 1: RESET output is for SP809; RESET output is for SP810.

2/8

Rev. 2.0.0

SP809 / SP810

3 Pin Microprocessor Supervisor Circuit

BLOCK DIAGRAM

Fig. 2: SP809 / SP810 Block Diagram

PIN ASSIGNMENT

Fig. 3: SP809 / SP810 Pin Assignment

PIN DESCRIPTION

Name

Pin Number

Description

Ground Signal

Active Low Output Pin.

RESET Output remains high while VCC is below the reset threshold

GND

RESET

Active High Output Pin.

RESET Output remains high while VCC is below the reset threshold

RESET

V_CC

Supply Voltage

3/8

Rev. 2.0.0

SP809 / SP810

3 Pin Microprocessor Supervisor Circuit

ORDERING INFORMATION

Temperature

Part Number

Packing

Quantity

Marking

Package

Note 1

Note 2

Range

SP809EK-L-2-3/TR

SP809EK-L-2-6/TR

SP809EK-L-2-9/TR

SP809EK-L-3-1/TR

SP809EK-L-4-6/TR

SP809NEK-L-2-3/TR

SP809NEK-L-2-9/TR

SP809NEK-L-3-1/TR

SP809NEK-L-4-6/TR

SP810EK-L-2-6/TR

SP810EK-L-4-4/TR

N4WW

P4WW

Q4WW

R4WW

U4WW

V4WW

X4WW

Y4WW

C5WW

E5WW

J5WW

-40°C≤T_A≤+85°C

2.5K/Tape & Reel

SOT23-3

Lead Free

“YY” = Year – “WW” = Work Week – “X” = Lot Number; when applicable.

4/8

Rev. 2.0.0

SP809 / SP810

3 Pin Microprocessor Supervisor Circuit

TYPICAL PERFORMANCE CHARACTERISTICS

All data taken at T_A= 25°C, unless otherwise specified - Schematic and BOM from Application Information section of this

datasheet.

Fig. 5: Power-Down Reset Delay versus Temperature

Fig. 7: Power-Down Reset Delay versus Temperature

Fig. 9: Power-Up Reset Time-out versus Temperature

Fig. 4: Supply Current versus Temperature

Fig. 6: Power-Down Reset Delay versus Temperature

Fig. 8: Normalized Reset Threshold versus Temperature

5/8

Rev. 2.0.0

SP809 / SP810

3 Pin Microprocessor Supervisor Circuit

V_CCreturns above the reset threshold, and

RESET remains low for the reset timeout

period.

THEORY OF OPERATION

μP will be activated at a valid reset state.

These μP supervisory circuits assert reset to

prevent code execution errors during power-

up, power-down, or brownout conditions.

ENEFIT OF

HIGHLY ACCURATE RESET

HRESHOLD

Reset is guaranteed to be a logic low for

V_TH>V_CC>0.9V. Once V_CCexceeded the reset

threshold, an internal timer keeps RESET low

for the reset timeout period; after this interval,

RESET goes high.

SP809/810 with specified voltage as 5V±10%

or 3V±10% are ideal for systems using a

5V±5% or 3V±5% power supply. The reset is

guaranteed to assert after the power supply

falls below the minimum specified operating

voltage range of the system ICs. The pre-

trimmed thresholds are reducing the range

over which an undesirable reset may occur.

If a brownout condition occurs (V_CCdrops

below the reset threshold), RESET goes low.

Any time V_CCgoes below the reset threshold,

the internal timer resets to zero, and RESET

goes low. The internal timer is activated after

APPLICATION INFORMATION

NTERFACING TO µ

ESET INS

P WITH BIDIRECTIONAL

EGATIVE

OING V_CCTRANSIENTS

In addition to issuing a reset to the µP during

power-up, power-down, and brownout

The RESET output on the SP809N is open

drain, this device interfaces easily with μPs

that have bidirectional reset pins. Connecting

the μP supervisor's RESET output directly to

the microcontroller's RESET pin with a single

pull-up resistor allows either device to assert

reset.

conditions, SP809 series are relatively

resistant to short-duration negative-going V^CC

transient.

NSURING A VALID RESET OUTPUT DOWN

TO V_CC=0

EST CIRCUIT

When V_CCfalls below 0.9V, SP809 RESET

output no longer sinks current; it becomes an

open circuit. In this case, high-impedance

CMOS logic inputs connecting to RESET can

drift to undetermined voltages. Therefore,

SP809/810 with CMOS is perfect for most

applications of V_CCdown to 0.9V.

However in applications where RESET must be

valid down to 0V, adding a pull-down resistor

to RESET causes any leakage currents to flow

to ground, holding RESET low.

Fig. 10: Test Circuit

6/8

Rev. 2.0.0

SP809 / SP810

3 Pin Microprocessor Supervisor Circuit

PACKAGE SPECIFICATION

3-PIN SOT23

7/8

Rev. 2.0.0

SP809 / SP810

3 Pin Microprocessor Supervisor Circuit

REVISION HISTORY

Revision

Date

Description

Reformat of Datasheet

Correction of package drawing

2.0.0

FOR FURTHER ASSISTANCE

Email:

customersupport@exar.com

Exar Technical Documentation:

http://www.exar.com/TechDoc/default.aspx?

XAR

CORPORATION

EADQUARTERS AND

SALES OFFICES

48720 Kato Road

Fremont, CA 94538 – USA

Tel.: +1 (510) 668-7000

Fax: +1 (510) 668-7030

www.exar.com

NOTICE

EXAR Corporation reserves the right to make changes to the products contained in this publication in order to improve

design, performance or reliability. EXAR Corporation assumes no responsibility for the use of any circuits described herein,

conveys no license under any patent or other right, and makes no representation that the circuits are free of patent

infringement. Charts and schedules contained here in are only for illustration purposes and may vary depending upon a

user’s specific application. While the information in this publication has been carefully checked; no responsibility, however,

is assumed for inaccuracies.

EXAR Corporation does not recommend the use of any of its products in life support applications where the failure or

malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its

safety or effectiveness. Products are not authorized for use in such applications unless EXAR Corporation receives, in

writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized; (b) the user assumes all

such risks; (c) potential liability of EXAR Corporation is adequately protected under the circumstances.

Reproduction, in part or whole, without the prior written consent of EXAR Corporation is prohibited.

8/8

Rev. 2.0.0

SP809N [EXAR]

相关型号：

SP809NEK-2-3

SP809NEK-2-3/TR

SP809NEK-2-6

SP809NEK-2-6/TR

SP809NEK-2-9

SP809NEK-2-9/TR

SP809NEK-2.3

SP809NEK-2.3-L

SP809NEK-2.3-L/TR

SP809NEK-2.3/TR

SP809NEK-2.6-L

SP809NEK-2.6-L/TR